CN216945561U - Finishing device is carried to corrugated paper - Google Patents

Abstract

The application relates to a corrugated paper conveying and arranging device, which belongs to the technical field of corrugated paper production and comprises a first conveying mechanism and a second conveying mechanism, wherein the first conveying mechanism comprises a first conveying frame, and a plurality of first conveying belts which are uniformly arranged are arranged on the first conveying frame; the first conveying frame comprises two first cross beams which are arranged in parallel, the first conveying belt is positioned between the two first cross beams, and a temporary supporting assembly is arranged between the two first cross beams; the temporary supporting assembly comprises a first movable beam and a plurality of second movable beams fixed with the first movable beam, the first movable beam is perpendicular to the first cross beams, the second movable beam is perpendicular to the first movable beam, two ends of the first movable beam are respectively connected with one side, close to the two first cross beams, of the two first cross beams in a sliding mode, the second movable beam is located between the two first conveying belts, and a first driving assembly for driving the movable frame to move along the length direction of the first cross beams is arranged on the first cross beams. This application has the effect that improves cardboard conveying efficiency.

Description

Finishing device is carried to corrugated paper

Technical Field

The application relates to the technical field of corrugated paper production, especially, relate to a finishing device is carried to corrugated paper.

Background

In the process of corrugated paper production, different paperboards need to be bonded together through a paperhanging machine and then conveyed to a designated position through a conveying mechanism.

As shown in fig. 1, the corrugated paper conveying apparatus includes a first conveying mechanism 1 and a second conveying mechanism 2, after the corrugated paper comes out from the paper pasting machine, the corrugated paper sequentially passes through the first conveying mechanism 1 and the second conveying mechanism 3, the corrugated paper drops onto the second conveying mechanism 3 from the first conveying mechanism 1 one by one, when the corrugated paper of the second conveying mechanism 3 reaches a certain amount, the second conveying mechanism 3 conveys a stack of corrugated paper boards to a side away from the first conveying mechanism 1, at this time, the first conveying mechanism 1 stops working, and after the second conveying mechanism 3 conveys the stack of corrugated paper boards, the first conveying mechanism 1 can continue working, so that the efficiency of conveying the corrugated paper boards is reduced.

SUMMERY OF THE UTILITY MODEL

In order to improve the efficiency that the cardboard was carried, this application provides a finishing device is carried to corrugated paper.

The application provides a cardboard conveyor adopts following technical scheme:

a corrugated paper conveying and arranging device comprises a first conveying mechanism and a second conveying mechanism, wherein the second conveying mechanism is positioned on one side of the first conveying mechanism, the height of the second conveying mechanism is lower than that of the first conveying mechanism, the first conveying mechanism comprises a first conveying frame, and a plurality of first conveying belts which are uniformly arranged at intervals are arranged on the first conveying frame;

the first conveying frame comprises two first cross beams which are arranged in parallel, the first conveying belt is positioned between the two first cross beams, and a temporary supporting assembly is arranged between the two first cross beams; the temporary supporting assembly comprises a first movable beam and a plurality of second movable beams fixed with the first movable beam, the first movable beam is perpendicular to the first cross beam, the second movable beam is perpendicular to the first movable beam, two ends of the first movable beam are respectively connected with two first cross beams in a sliding mode, one side of each first cross beam is close to the corresponding first cross beam, the second movable beam is located between the first conveying belts, and a first driving assembly for driving the movable frame to move along the length direction of the first cross beams is arranged on each first cross beam.

By adopting the technical scheme, the corrugated boards are conveyed on the first conveying belt on the first conveying frame, the corrugated boards are conveyed to the second conveying mechanism by the first conveying belt, the corrugated boards sequentially fall on the second conveying mechanism to form a stack of corrugated boards, when the corrugated boards on the second conveying mechanism reach a certain number, the first driving assembly drives the first movable beam and the second movable beam to move towards the second conveying mechanism, at the moment, the second conveying mechanism moves the stack of corrugated boards towards the direction far away from the first conveying frame, and the corrugated boards falling from the first conveying belt fall onto the second movable beam. When a stack of corrugated boards is moved away, the first driving assembly drives the first moving beam and the second moving beam to move towards the direction far away from the second conveying mechanism, and the corrugated boards on the first moving beam and the second moving beam fall onto the second conveying mechanism. The temporary supporting component is arranged, when the corrugated board on the second conveying mechanism is conveyed to one side far away from the first conveying mechanism, the temporary supporting component can temporarily support the corrugated board falling from the first conveying mechanism, the first conveying mechanism can continuously work, and the working efficiency is improved.

Optionally, a second conveyor belt is arranged on the second movable beam, the second movable beam is far away from one end of the first movable beam, a second mounting groove is formed in one end of the second movable beam, the second movable beam is close to one end of the first movable beam, a second mounting groove is formed in the other end of the second movable beam, the second mounting groove is connected with the rotating roller in a rotating mode, and the second conveyor belt is sleeved on the rotating roller in a rotating mode.

Through adopting above-mentioned technical scheme, corrugated container board is located the top of second conveyer belt behind the corrugated paper fell the second walking beam, corrugated container board and second conveyer belt contact, when the second walking beam removed to the direction of keeping away from second transport mechanism, corrugated container board was close to on one end of first carriage supported first carriage, did not remove along with the second walking beam, and at this moment, the second conveyer belt took place to rotate, and corrugated container board of being convenient for drops from the second walking beam.

Optionally, two be fixed with the drive roller between the first crossbeam, be fixed with drive roller pivoted first motor on the first crossbeam, two be fixed with two first tie-beams between the first crossbeam, one of them is close to first tie-beam is located one side of drive roller, another first tie-beam is located keep away from one side of drive roller keeps away from the drive roller be fixed with a plurality of first splice blocks on the first tie-beam, every the rotation wheel is all installed to first splice block, first conveyer belt cover the drive roller with on the rotation wheel, two be fixed with a plurality of first connecting plates between the first tie-beam, first connecting plate be located the below of first conveyer belt conveying article one side and with first conveyer belt contact.

Through adopting above-mentioned technical scheme, first motor drives the drive roller and rotates, and the drive roller drives first conveyer belt and rotates, and first conveyer belt drive corrugated container board moves to second transport mechanism, and the conveyer belt below of the conveying corrugated container board of first conveyer belt is provided with first connecting plate, and first connecting plate plays the effect of support to first conveyer belt to make first conveyer belt carry corrugated container board steadily.

Optionally, first drive assembly includes belt, first belt pulley and second belt pulley, the bottom mounting of first crossbeam has two first landing legs, first belt pulley with the second belt pulley is installed same respectively two on the first crossbeam on the first landing leg, the belt cover is in first belt pulley with on the second belt pulley, the belt with first walking beam is connected, be fixed with the first belt pulley pivoted second motor of drive on the first landing leg.

Through adopting above-mentioned technical scheme, when first drive assembly drove first walking beam and removes, the first belt pulley of second motor drive rotates, and first belt pulley drives belt and second belt pulley and rotates, and the first walking beam of belt drive removes to make first walking beam drive the second walking beam and remove.

Optionally, two all be fixed with first backup pad on the first crossbeam, two be fixed with the connecting rod between the first backup pad, be provided with a plurality of installation pieces on the connecting rod, be provided with on the installation piece with the retaining member that the connecting rod is fixed, every the bottom of installation piece all is fixed with the nipper, the nipper is located the top of first conveyer belt, the nipper is kept away from the one end of installation piece with first conveyer belt is kept away from the contact of one side of drive roller.

By adopting the technical scheme, when the corrugated paper boards pass below the paper pressing plate, the speed of the corrugated paper boards is reduced, the tail end of the corrugated paper board in the front is positioned below the front end of the corrugated paper board in the back, the corrugated paper boards on the first conveying frame are sequentially arranged in a fish scale shape, and the corrugated paper boards can fall on the second conveying mechanism one by one.

Optionally, two all be fixed with the fixed plate on the first crossbeam, the fixed plate is located one side that first backup pad was kept away from to first crossbeam, two rotate between the fixed plate and be connected with the pivot, the both ends of pivot are fixed with the second backup pad respectively, two the second backup pad is located two between the fixed plate, be fixed with the fixed axle between two second backup pads, install a plurality of pinch rollers on the fixed axle, every the pinch roller is located one the top of first conveyer belt.

Through adopting above-mentioned technical scheme, after corrugated container board passed through between nipper and the first conveyer belt, corrugated container board passed through from the below of pinch roller, and the pinch roller plays the effect of pushing down to corrugated container board, makes corrugated container board can fall on the second transport mechanism steadily.

Optionally, the second conveying mechanism includes a second conveying frame and a third conveying frame, the second conveying frame and the third conveying frame are provided with supporting frames, the supporting frames are slidably connected with the second conveying frame and the third conveying frame, and the second conveying frame is provided with a second driving assembly for driving the supporting frames to move;

a second air cylinder is fixed on the support frame, a first baffle is fixed on a piston rod of the second air cylinder, a second connecting beam is fixed between the two first cross beams, a third air cylinder is fixed on the second connecting beam, a fourth baffle is fixed on a piston rod of the third air cylinder, the first baffle and the fourth baffle are arranged in parallel, and the first baffle and the first cross beams are arranged vertically;

the conveying device is characterized in that a second baffle is arranged on the first conveying frame, the second baffle is arranged in parallel with the first cross beam, a third baffle is arranged on the second conveying frame, the second baffle is arranged in parallel with the third baffle, a third driving assembly for driving the second baffle to move is arranged on the first conveying frame, and a fourth driving assembly for driving the third baffle is arranged on the second conveying frame.

Through adopting above-mentioned technical scheme, when corrugated container board fell on second carriage and the third carriage, corrugated container board was blocked by first baffle, can not remove to the direction of keeping away from first carriage. After the corrugated boards on the second conveying frame and the third conveying frame reach a certain number, the third cylinder pushes the fourth baffle, the fourth baffle moves towards the first baffle, and the first baffle and the fourth baffle align two side faces of the corrugated boards. And then the third driving assembly drives the second baffle to move, the fourth driving assembly drives the fourth baffle to move, and the second baffle and the third baffle move towards the mutually approaching direction to align the other two sides of the stack of corrugated boards.

Optionally, a gap is formed between the second conveying frame and the third conveying frame, a third sliding rail is arranged in the gap, a sliding groove is formed in the third sliding rail, a third sliding block is connected in the sliding groove in a sliding mode, a fifth driving assembly for driving the third sliding block to slide is arranged on the third sliding rail, a fourth air cylinder is fixed on the third sliding block, the fourth air cylinder extends out of the sliding groove, and a push plate is fixed on a piston rod of the fourth air cylinder.

Through adopting above-mentioned technical scheme, after aligning four sides of a pile of corrugated container board, the piston rod shrink of fourth cylinder, make the top of push pedal be less than the top of second carriage, later the fifth drive assembly drive third slider removes to the direction of first carriage, when carrying the third slider between first carriage and a pile of corrugated container board, the fourth cylinder is flexible, the push pedal stretches out the clearance, then the fifth drive assembly drive slider removes to the direction of keeping away from first carriage, the push pedal promotes a pile of corrugated container board and removes to the direction of keeping away from first carriage.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the temporary supporting component is arranged, when the corrugated board on the second conveying mechanism is conveyed to the side far away from the first conveying mechanism, the temporary supporting component can temporarily support the corrugated board falling from the first conveying mechanism, the first conveying mechanism can continuously work, and the working efficiency is improved;

2. when the second moving beam moves towards the direction far away from the second conveying mechanism, one end, close to the first conveying frame, of the corrugated board abuts against the first conveying frame and does not move along with the second moving beam, and at the moment, the second conveying belt rotates, so that the corrugated board can fall off from the second moving beam conveniently;

3. the first connecting plate plays a role in supporting the first conveyor belt, so that the first conveyor belt can stably convey the corrugated boards.

Drawings

Fig. 1 is a schematic structural view of the related art.

Fig. 2 is a schematic view of the overall structure embodying the present application.

Fig. 3 is a schematic view of a first carriage embodying the present application.

Figure 4 is a schematic diagram of a platen assembly and a pinch roller assembly embodying the present application.

Fig. 5 is a schematic view of a temporary support assembly embodying the present application.

Fig. 6 is a schematic diagram of a first drive assembly embodying the present application.

Fig. 7 is a schematic diagram of a second carriage and a third carriage embodying the present application.

Fig. 8 is a schematic diagram of a third drive assembly embodying the present application.

FIG. 9 is a schematic view of a fourth baffle embodying the present application.

Fig. 10 is a schematic diagram of a fifth drive assembly embodying the present application.

Description of reference numerals:

1. a first conveying mechanism; 11. a first carriage; 111. a first cross member; 1111. a first leg; 112. a drive roller; 113. a first motor; 114. a first connecting beam; 115. a first connection block; 116. a rotating wheel; 117. a first conveyor belt; 118. a first connecting plate; 12. a paper pressing assembly; 121. a first support plate; 122. a connecting rod; 123. mounting blocks; 1231. a first mounting groove; 124. pressing a paper board; 125. a threaded rod; 1251. a knob; 13. a pinch roller assembly; 131. a fixing plate; 132. a rotating shaft; 133. a first cylinder; 134. a second support plate; 135. a fixed shaft; 136. a pinch roller; 2. a temporary support assembly; 21. a movable frame; 211. a first movable beam; 212. a second movable beam; 213. a first slider; 214. a first slide rail; 22. a second motor; 23. a second conveyor belt; 231. a second mounting groove; 24. a first drive assembly; 241. a belt; 242. a first pulley; 243. a second pulley; 3. a second transport mechanism; 31. a second conveyance rack; 311. a second cross member; 3111. a second leg; 312. a conveying roller; 313. a second baffle; 32. a third carriage; 321. a third cross member; 322. a third leg; 323. a third baffle plate; 33. a support frame; 331. a second slide rail; 332. a second slider; 333. a second cylinder; 334. a first baffle; 34. a second drive assembly; 341. a third motor; 342. a first lead screw; 343. a first fixed block; 344. a second fixed block; 35. a third drive assembly; 351. a first moving plate; 352. a second connecting block; 353. a fourth motor; 354. a second lead screw; 355. a first moving block; 356. a first support block; 357. a first guide bar; 358. a second moving block; 359. a second support block; 4. a second connecting beam; 41. a third cylinder; 42. a fourth baffle; 5. a gap; 6. a fifth drive assembly; 61. pushing the plate; 62. a third slide rail; 63. a third slider; 64. a fourth cylinder; 65. a chute; 66. a third screw rod; 67. and a fifth motor.

Detailed Description

The present application is described in further detail below with reference to figures 2-10.

The embodiment of the application discloses finishing device is carried to corrugated paper. Referring to fig. 2, the corrugated paper conveying and arranging device comprises a first conveying mechanism 1 and a second conveying mechanism 3, the second conveying mechanism 3 is located on one side of the first conveying mechanism 1, the height of the second conveying mechanism 3 is lower than that of the first conveying mechanism 1, a paper pasting machine (not shown in the figure) is arranged on one side, away from the second conveying mechanism 3, of the first conveying mechanism 1, the corrugated paper boards sequentially pass through the first conveying mechanism 1 and the second conveying mechanism 3 after passing through the paper pasting machine, after passing through the first conveying mechanism 1, a plurality of corrugated paper boards sequentially fall onto the second conveying mechanism 3, and the corrugated paper boards are placed in a stack.

Referring to fig. 2 and 3, the first conveying mechanism 1 includes a first conveying frame 11, the first conveying frame 11 includes two first beams 111 which are arranged at an interval and are parallel to each other, two first legs 1111 are fixed to the bottom end of each first beam 111, and a brake universal wheel is fixedly connected to the bottom of each first leg 1111. A driving roller 112 is rotatably connected between the two first beams 111, the driving roller 112 is located at one end of the first beam 111 far away from the second conveying mechanism 3, and a first motor 113 for driving the driving roller 112 to rotate is fixed on one of the first beams 111.

Two first connecting beams 114 are fixed between the two first cross beams 111, wherein one first connecting beam 114 is positioned at the side close to the driving roller 112, and the other first connecting beam 114 is positioned at the side far from the driving roller 112. Six first connecting blocks 115 are fixed on the first connecting beam 114 far away from the driving roller 112, a rotating wheel 116 is rotatably connected on each first connecting block 115, six first conveyor belts 117 are arranged between the driving roller 112 and the rotating wheel 116, and the six first conveyor belts 117 are arranged at intervals and uniformly. One end of the first belt 117 is fitted over the driving roller 112, and the other end of the first belt 117 is fitted over one of the rotating wheels 116. Six first connecting plates 118 are arranged between the two first connecting beams 114, the first connecting plates 118 are positioned below the article conveying side of the first conveyor belt 117, and the first connecting plates 118 support the first conveyor belt 117.

Referring to fig. 4, a paper pressing assembly 12 is disposed above the first carriage 11, and the paper pressing assembly 12 includes two first support plates 121, one of the first support plates 121 is fixed to one of the first cross members 111, and the other first support plate 121 is fixed to the other first cross member 111. A connecting rod 122 is fixed between the two first supporting plates 121, and the connecting rod 122 is a hollow rod in order to reduce the weight of the connecting rod 122. Be provided with six installation pieces 123 on connecting rod 122, seted up first mounting groove 1231 on the installation piece 123, connecting rod 122 is provided with the retaining member through first mounting groove 1231 on the installation piece 123, and the retaining member can be fixed with installation piece 123 and connecting rod 122.

The paper pressing assembly 12 further includes a paper pressing plate 124, one end of the paper pressing plate 124 is fixed to the bottom end of the mounting block 123, and the other end of the paper pressing plate 124 is in contact with the upper side of the first conveyor belt 117 near the rotating wheel 116.

The locking member is a threaded rod 125, a knob 1251 is fixed on the threaded rod 125, and the threaded rod 125 penetrates through the mounting block 123 to be inserted into the first mounting groove 1231 and is in threaded connection with the mounting block 123. The knob 1251 is rotated, after the threaded rod 125 is screwed, one end of the threaded rod 125 far away from the knob 1251 abuts against the outer wall of the connecting rod 122, and therefore the mounting block 123 is fixed with the connecting rod 122.

As shown in fig. 4, after the corrugated cardboard comes out of the laminating machine, the corrugated cardboard passes through the first conveying frame 11, and after the corrugated cardboard passes between the paper pressing plate 124 at the end far from the mounting block 123 and the first conveying belt 117, the speed of the corrugated cardboard is reduced, the end of the former corrugated cardboard is located below the front end of the latter corrugated cardboard, the corrugated cardboards on the first conveying frame 11 are arranged in a fish scale shape, and the corrugated cardboards fall onto the second conveying mechanism 3 one by one.

One side of the first conveying frame 11, which is far away from the driving roller 112, is provided with a pressing wheel assembly 13, and the pressing wheel assembly 13 has a function of preventing one side of the corrugated paper, which is far away from the first conveying belt 117, from being warped upwards when the corrugated paper board falls onto the second conveying mechanism 3. The pressing wheel assembly 13 comprises two fixing plates 131, a rotating shaft 132 and a first cylinder 133, wherein one fixing plate 131 is fixed on the upper surface of one of the first cross beams 111, and the other fixing plate 131 is located on the upper surface of the other first cross beam 111. Two ends of the rotating shaft 132 are rotatably connected to the two fixing plates 131, respectively.

The two ends of the rotating shaft 132 are respectively fixed with a second supporting plate 134, the two second supporting plates 134 are located between the two fixing plates 131, one end of the second supporting plate 134 far away from the rotating shaft 132 is connected with a fixing shaft 135, and the two ends of the fixing shaft 135 are respectively fixedly connected with the two second supporting plates 134.

Six pressing wheels 136 are uniformly arranged on the fixed shaft 135, the pressing wheels 136 are rotatably connected with the fixed shaft 135, the pressing wheels 136 can rotate along the axis of the fixed shaft 135, and each pressing wheel 136 corresponds to one first conveyor belt 117. The end of the first cylinder 133 is hinged to the first beam 111, and the piston rod of the first cylinder 133 is hinged to one end of the second support plate 134 near the fixed shaft 135. The first cylinder 133 can adjust the angle of the second supporting plate 134 relative to the upper surface of the first beam 111, so as to adjust the height of the pressing roller 136, so that the pressing roller 136 can press the corrugated cardboard downwards better.

Referring to fig. 5, a temporary support assembly 2 is disposed between the two first cross beams 111, the temporary support assembly 2 includes a moving frame 21, and the moving frame 21 includes a first moving beam 211 and five second moving beams 212. First slider 213 is fixed at both ends of first walking beam 211, and first slide rail 214 is fixed at one side that two first crossbeams 111 are close to each other, first slider 213 and first slide rail 214 sliding connection, and first slide rail 214 plays the effect of support to first slider 213 simultaneously. One end of the second moving beam 212 is fixed to the first moving beam 211, the second moving beam 212 is disposed parallel to the first cross beam 111, and the second moving beam 212 is located between the two first conveyors 117.

The second conveyor belt 23 is arranged on the second movable beam 212, the second mounting grooves 231 are formed in the two ends of the second movable beam 212, the rotating rollers are mounted in the two second mounting grooves 231 and are connected with the groove walls of the second mounting grooves 231 in a rotating mode, the rotating rollers are connected with the groove walls of the second mounting grooves 231 in a rotating mode, and the two ends of the second conveyor belt 23 are sleeved on the two rotating rollers.

Referring to fig. 5 and 6, a first driving assembly 24 for driving the moving frame 21 to move along the length direction of the first beam 111 is disposed on the first beam 111, the first driving assembly 24 includes a belt 241, a first pulley 242 and a second pulley 243, the belt 241 is a toothed belt, the first pulley 242 is mounted on a first leg 1111, the second pulley 243 is mounted on another first leg 1111, the belt 241 is sleeved on the first pulley 241 and the second pulley 241, and a second motor 22 for driving the first pulley 241 to rotate is fixed on the first leg 1111. The belt 241 is fixed to the first slider 213, and when the belt 241 moves, the first slider 213 moves along with the belt 241, so as to move the first moving beam 211 and the second moving beam 212.

In order to make the moving frame 21 move more stably, another belt 241 is disposed on the first cross beam 111 away from the belt 241, the first belt pulleys 242 of the two belts 241 are coaxial, the second belt pulley 243 is also coaxial, and the second motor 22 drives the two belts 241 to rotate together.

When the number of the corrugated cardboards dropped onto the second conveying mechanism 3 reaches a certain number, the second motor 22 drives the belt 241 to move, and the belt 241 drives the first slider 213 to move, so as to move the first moving beam 211 and the second moving beam 212 in a direction close to the second conveying mechanism 3. After the movement is completed, when the corrugated cardboard falls down again, the corrugated cardboard falls down directly onto the second moving beam 212, and the second moving beam 212 plays a role of temporarily supporting the corrugated cardboard.

Referring to fig. 7, the second conveying mechanism 3 includes a second conveying frame 31 and a third conveying frame 32, the second conveying frame 31 includes two second cross beams 311 arranged in parallel, a plurality of second support legs 3111 are disposed at a lower end of each second cross beam 311, a plurality of conveying rollers 312 are uniformly disposed between the two second cross beams 311, and two ends of each conveying roller 312 are rotatably connected to the two second cross beams 311. The third transportation frame 32 includes two third beams 321 arranged in parallel, a plurality of third support legs 322 are fixed at the lower end of each third beam 321, a plurality of transportation rollers 312 are uniformly arranged between the two third beams 321, and two ends of the transportation rollers 312 are respectively connected with the two third beams 321 in a rotating manner.

The second conveying frame 31 and the third conveying frame 32 are provided with a supporting frame 33, a second sliding rail 331 is fixed on the second cross beam 311 far away from the third cross beam 321, a second sliding rail 331 is also fixed on the third cross beam 321 far away from the second cross beam 311, two second sliding blocks 332 are fixed at the bottom end of the supporting frame 33, and the two second sliding blocks 332 are respectively connected with the second sliding rail 331 in a sliding manner.

The second beam 311 far from the third beam 321 is provided with a second driving assembly 34 for driving the support frame 33 to move along the length direction of the second beam 311. The second driving assembly 34 includes a third motor 341 and a first screw 342, the third motor 341 is fixed on the second beam 311, the first screw 342 is fixed with an output shaft of the third motor 341, a first fixing block 343 is fixed on the second beam 311, and one end of the first screw 342 far from the third motor 341 is rotatably connected with the first fixing block 343. A second fixed block 344 is fixed on one side of the support frame 33 far away from the third beam 321, and the first screw rod 342 penetrates through the second fixed block 344 and is in threaded connection with the second fixed block 344. The third motor 341 drives the first screw rod 342 to rotate, and the first screw rod 342 drives the second fixing block 344 and the supporting frame 33 to move.

A second cylinder 333 is fixed in the middle of the supporting frame 33, a first baffle 334 is fixed on the piston rod of the second cylinder 333, and the first baffle 334 stops the corrugated cardboard from moving along the length direction of the second beam 311. When the length of the corrugated cardboard along the length direction of the second cross beam 311 is longer, the supporting frame 33 and the first baffle 334 can be driven to move in the direction away from the first conveying mechanism 1, so that the corrugated cardboard can be conveniently and smoothly dropped on the second conveying frame 31 and the third conveying frame 32.

Referring to fig. 7 and 8, the second carriage 31 is provided with a second barrier 313, a longitudinal direction of the second barrier 313 is parallel to a longitudinal direction of the second beam 311, the third carriage 32 is provided with a third barrier 323, and the second carriage 31 is provided with a third driving unit 35 that drives the second barrier 313 to move toward the third carriage 32. The third carriage 32 is provided with a third baffle 323, the third carriage 32 is provided with a fourth driving unit for driving the third baffle 323 to move, the fourth driving unit has the same structure as the third driving unit 35, and the third driving unit 35 is taken as an example for explanation.

The third driving unit 35 includes a first moving plate 351, and a second connection block 352 is fixed between the first moving plate 351 and the second stopper 313, and the second connection block 352 passes through a gap between the two conveying rollers 312. A fourth motor 353 is fixed on the second cross beam 311, a second lead screw 354 is fixed on an output shaft of the fourth motor 353, a first moving block 355 is fixed below the first moving plate 351, and the second lead screw 354 penetrates through the first moving block 355 and is in threaded connection with the first moving block 355. A first supporting block 356 is fixed on the second beam 311 of the second conveying frame 31 far away from the fourth motor 353, and one end of the second screw rod 354 far away from the fourth motor 353 is rotatably connected with the first supporting block 356.

Both sides of the second lead screw 354 are provided with first guide bars 357, both sides of the first moving block 355 are provided with second moving blocks 358, the second moving blocks 358 are fixed to the first moving block 351, the first guide bars 357 penetrate through the second moving blocks 358, the bottom ends of the two second cross beams 311 on the second conveying frame 31 are fixed with second support blocks 359, and both ends of the first guide bars 357 are fixed to the two second support blocks 359 respectively.

The fourth motor 353 drives the second screw rod 354 to rotate, the second screw rod 354 can drive the first moving plate 351 to move, and the first moving plate 351 drives the second baffle 313 to move. The fourth motor 353 on the third conveying frame 32 drives the corresponding second screw rod 354 to rotate, and the second screw rod 354 drives the third baffle 323 on the third conveying frame 32 to move, so that the second baffle 313 and the third baffle 323 can move towards the direction close to or away from each other, thereby aligning two sides of a stack of corrugated boards.

Referring to fig. 9, a second connecting beam 4 is fixed to the first leg 1111 of the first beam 111, a third cylinder 41 is fixed to the second connecting beam 4, a fourth baffle 42 is fixed to a piston rod of the third cylinder 41, and when a corrugated cardboard falls onto the second conveying frame 31 and the third conveying frame 32, the corrugated cardboard is located between the third baffle 323 and the fourth baffle 42.

When the corrugated cardboards on the second conveying frame 31 and the third conveying frame 32 reach a certain number, the third cylinder 41 pushes a stack of corrugated cardboards, which is aligned toward the first blocking plate 334 and the fourth blocking plate 42. The second flap 313 and the third flap 323 are then moved in a direction to approach each other to align the sides of the stack of corrugated cardboard adjacent to the second flap 313 and adjacent to the third flap 323.

Referring to fig. 7 and 10, a gap 5 is provided between the second conveying frame 31 and the third conveying frame 32, a fifth driving assembly 6 for driving the corrugated cardboard to move along the length direction of the second beam 311 is provided in the gap 5, the fifth driving assembly 6 includes a push plate 61, a third slide rail 62 and a third slide block 63, a fourth cylinder 64 is fixed on the third slide block 63, a piston rod of the fourth cylinder 64 is fixed to the push plate 61, and the fourth cylinder 64 can drive the push plate 61 to ascend and descend.

A sliding groove 65 for the third sliding block 63 to slide is formed in the third sliding rail 62, the third sliding block 63 is located in the sliding groove 65, a third screw rod 66 is arranged in the sliding groove 65, the third screw rod 66 is arranged along the length direction of the third sliding rail 62, the third screw rod 66 penetrates through the third sliding block 63 and is in threaded connection with the third sliding block 63, one end of the third screw rod 66 is rotatably connected with one end of the third sliding rail 62, the other end of the third screw rod 66 penetrates through the third sliding rail 62, and a fifth motor 67 for driving the third screw rod 66 to rotate is fixed on the third sliding rail 62.

The fifth motor 67 can drive the third screw 66 to rotate, and the third screw 66 can drive the third slider 63 to slide along the axis of the third screw 66. When corrugated boards on the second conveying frame 31 and the third conveying frame 32 need to be pushed to move in the direction away from the first conveying frame 11, the fourth cylinder 64 contracts, the push plate 61 moves downwards, and the fifth motor 67 drives the fourth cylinder 64 and the push plate 61 to move in the direction close to the first conveying frame 11. When the push plate 61 is located at a side of the corrugated cardboard close to the first conveying frame 11, then the fourth cylinder 64 drives the push plate 61 to ascend, and the fifth motor 67 rotates reversely, so that the push plate 61 pushes the corrugated cardboard to move in a direction away from the first conveying frame 11.

When a stack of corrugated boards is aligned, the fourth cylinder 64 pushes the pushing plate 61 to rise, the fifth motor 67 drives the third screw 66 to rotate, the third screw 66 drives the fourth cylinder 64 and the pushing plate 61 to move in a direction away from the first conveying frame 11, and thus the pushing plate 61 drives the stack of corrugated boards to move. When the corrugated board is conveyed to one side of the second conveying frame 31 far away from the first conveying frame 11 by the push plate 61, the fourth cylinder 64 drives the push plate 61 to descend, so that the top end of the push plate 61 is lower than the top end of the second cross beam 311, then the fifth motor 67 drives the push plate 61 to move towards the direction close to the first conveying frame 11, and at the moment, the corrugated board on the first conveying frame 11 continuously drops towards the second conveying frame 31 and the third conveying frame 32.

The implementation principle of the paperboard conveying device in the embodiment of the application is as follows: when the corrugated board is conveyed, the corrugated board comes out of the laminating machine and enters the first conveying frame 11, and under the driving of the first conveying belt 117, the corrugated board passes under the paper pressing plate 124, then passes under the pressing wheel 136, and falls onto the second conveying frame 31 and the third conveying frame 32.

When the corrugated cardboards on the second conveying frame 31 and the third conveying frame 32 reach a certain number, the moving frame 21 is driven by the second motor 22 to move toward the direction close to the second conveying frame 31 and the third conveying frame 32, and when the corrugated cardboards fall off from the first conveying frame 11 again, the corrugated cardboards fall off the moving frame 21. After the lower stack of corrugated cardboard is conveyed, the moving frame 21 moves in a direction away from the second conveying frame 31 and the third conveying frame 32, and the corrugated cardboard on the moving frame 21 falls onto the second conveying frame 31 and the third conveying frame 32.

A stack of corrugated cardboard falling on the second and third carriers 31 and 32 is aligned by the clamping action of the first and fourth shutters 334 and 42 and the clamping action of the second and third shutters 313 and 323, and then the pusher 61 pushes the entire corrugated cardboard to the end of the second and third carriers 31 and 32 away from the first carrier 11, and then the pusher 61 pushes the next stack of aligned corrugated cardboard at the end returning to the end close to the first carrier 11.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a finishing device is carried to corrugated paper which characterized in that: the conveying device comprises a first conveying mechanism (1) and a second conveying mechanism (3), wherein the second conveying mechanism (3) is positioned on one side of the first conveying mechanism (1), the height of the second conveying mechanism (3) is lower than that of the first conveying mechanism (1), the first conveying mechanism (1) comprises a first conveying frame (11), and a plurality of first conveying belts (117) which are uniformly arranged at intervals are mounted on the first conveying frame (11);

the first conveying frame (11) comprises two first cross beams (111) which are arranged in parallel, the first conveying belt (117) is positioned between the two first cross beams (111), and a temporary supporting assembly (2) is arranged between the two first cross beams (111); the temporary support assembly (2) comprises a first moving beam (211) and a plurality of second moving beams (212) fixed to the first moving beam (211), the first moving beam (211) is perpendicular to the first cross beam (111), the second moving beam (212) is perpendicular to the first moving beam (211), two ends of the first moving beam (211) are connected with two sides, close to the first cross beam (111), of the first cross beam (111) in a sliding mode, the second moving beam (212) is located between the first conveyor belts (117), and a first driving assembly (24) for driving the moving frame (21) to move along the length direction of the first cross beam (111) is arranged on the first cross beam (111).

2. A corrugated paper conveying and collating device according to claim 1, wherein: be provided with second conveyer belt (23) on second walking beam (212), second walking beam (212) are kept away from second mounting groove (231) have been seted up to the one end of first walking beam (211), second walking beam (212) are close to second mounting groove (231), two have also been seted up to the one end of first walking beam (211) all rotate in second mounting groove (231) and have been connected with the live-rollers, second conveyer belt (23) cover is two on the live-rollers.

3. A corrugated paper conveying and collating device according to claim 2, wherein: a driving roller (112) is fixed between the two first beams (111), a first motor (113) for driving the driving roller (112) to rotate is fixed on the first beam (111), two first connecting beams (114) are fixed between the two first beams (111), one of the first connecting beams (114) is located at one side close to the driving roller (112), the other first connecting beam (114) is located at one side far away from the driving roller (112), a plurality of first connecting blocks (115) are fixed on the first connecting beam (114) far away from the driving roller (112), a rotating wheel (116) is installed on each first connecting block (115), a first conveying belt (117) is sleeved on the driving roller (112) and the rotating wheel (116), and a plurality of first connecting plates (118) are fixed between the two first connecting beams (114), the first connecting plate (118) is positioned below the side of the first conveyor belt (117) where the articles are conveyed and is in contact with the first conveyor belt (117).

4. A corrugated paper conveying and collating device according to claim 3, wherein: first drive assembly (24) includes belt (241), first belt pulley (242) and second belt pulley (243), the bottom mounting of first crossbeam (111) has two first landing legs (1111), first belt pulley (242) with second belt pulley (243) are installed same respectively two on first crossbeam (111) on first landing leg (1111), belt (241) cover first belt pulley (242) with on second belt pulley (243), belt (241) with first removal roof beam (211) are connected, be fixed with on first landing leg (1111) and drive first belt (241) wheel pivoted second motor (22).

5. A corrugating conveying and collating device according to either one of claims 3 or 4, including: all be fixed with first backup pad (121) on first crossbeam (111), two be fixed with connecting rod (122) between first backup pad (121), be provided with a plurality of installation pieces (123) on connecting rod (122), be provided with on installation piece (123) with the retaining member that connecting rod (122) are fixed, every the bottom of installation piece (123) all is fixed with press board (124), press board (124) are located the top of first conveyer belt (117), press board (124) are kept away from the one end of installation piece (123) with first conveyer belt (117) are kept away from the contact of one side of drive roller (112).

6. The corrugated paper conveying and arranging device according to claim 5, wherein: two all be fixed with fixed plate (131) on first crossbeam (111), fixed plate (131) are located one side of first backup pad (121) is kept away from in first crossbeam (111), two rotate between fixed plate (131) and be connected with pivot (132), the both ends of pivot (132) are fixed with second backup pad (134) respectively, two second backup pad (134) are located two between fixed plate (131), are fixed with fixed axle (135) between two second backup pad (134), install a plurality of pinch rollers (136) on fixed axle (135), every pinch roller (136) are located one the top of first conveyer belt (117).

7. A corrugated paper conveying and collating device according to claim 1, wherein: the second conveying mechanism (3) comprises a second conveying frame (31) and a third conveying frame (32), supporting frames (33) are arranged on the second conveying frame (31) and the third conveying frame (32), the supporting frames (33) are connected with the second conveying frame (31) and the third conveying frame (32) in a sliding mode, and a second driving assembly (34) for driving the supporting frames (33) to move is arranged on the second conveying frame (31);

a second air cylinder (333) is fixed on the support frame (33), a first baffle (334) is fixed on a piston rod of the second air cylinder (333), a second connecting beam (4) is fixed between the two first cross beams (111), a third air cylinder (41) is fixed on the second connecting beam (4), a fourth baffle (42) is fixed on a piston rod of the third air cylinder (41), the first baffle (334) and the fourth baffle (42) are arranged in parallel, and the first baffle (334) is perpendicular to the first cross beams (111);

the conveying device is characterized in that a second baffle (313) is arranged on the first conveying frame (11), the second baffle (313) and the first cross beam (111) are arranged in parallel, a third baffle (323) is arranged on the second conveying frame (31), the second baffle (313) and the third baffle (323) are arranged in parallel, a third driving assembly (35) for driving the second baffle (313) to move is arranged on the first conveying frame (11), and a fourth driving assembly for driving the third baffle (323) is arranged on the second conveying frame (31).

8. The corrugated paper conveying and arranging device as claimed in claim 7, wherein: be provided with clearance (5) between second carriage (31) and third carriage (32), be provided with third slide rail (62) in clearance (5), spout (65) have been seted up on third slide rail (62), and sliding connection has third slider (63) in spout (65), be provided with gliding fifth drive assembly (6) of drive third slider (63) on third slide rail (62), be fixed with fourth cylinder (64) on third slider (63), fourth cylinder (64) stretch out spout (65), be fixed with push pedal (61) on the piston rod of fourth cylinder (64).

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